AbstractAirborne electromagnetic (AEM) survey data was used to supplement geotechnical investigations for a highway construction project in Norway. Heterogeneous geology throughout the survey and consequent variable bedrock threshold resistivity hindered efforts to directly track depth to bedrock, motivating us to develop an automated algorithm to extract depth to bedrock by combining both boreholes and AEM data. We developed two variations of this algorithm: one using simple Gaussian or inverse distance weighting interpolators, and another using ordinary kriging and combined probability distribution functions of input parameters.Evaluation shows that for preliminary surveys, significant savings in boreholes required can be made without sac...
Large areas of bedrock in Canada, such as in the interior plateau of British Columbia, are covered b...
Geomagnetic and geoelectric surveys were executed in a complex zone with the aim of determining the ...
Long range, high-power airborne electromagnetic (AEM) systems fall into two categories: helicopter b...
-Airborne electromagnetic (AEM) survey data was used to supplement geotechnical investigations for a...
AbstractAirborne electromagnetic (AEM) survey data was used to supplement geotechnical investigation...
Cost overruns caused by unforeseen geological challenges are commonplace for large infrastructure pr...
From the first use of airborne electromagnetic (AEM) systems for remote sensing in the 1950s, AEM da...
Airborne electromagnetic (EM) results have been applied to estimating depth-to-bedrock and to mappin...
Airborne electromagnetic (AEM) surveys, when regionally extensive, may sample a wide-range of geolog...
The focus of this thesis lies on the joint application of ground-based and airborne electromagnetic ...
Numerous airborne electromagnetic surveys have been acquired in Australia using a variety of systems...
AbstractAirborne electromagnetic (AEM) surveys, when regionally extensive, may sample a wide-range o...
In glaciated terrain, buried valleys often host aquifers that are significant groundwater resources....
Airborne electromagnetic (AEM) data is commonly collected for detecting buried natural resources, an...
Airborne time-domain electromagnetic methods (AEM) are useful for hydrogeological mapping due to th...
Large areas of bedrock in Canada, such as in the interior plateau of British Columbia, are covered b...
Geomagnetic and geoelectric surveys were executed in a complex zone with the aim of determining the ...
Long range, high-power airborne electromagnetic (AEM) systems fall into two categories: helicopter b...
-Airborne electromagnetic (AEM) survey data was used to supplement geotechnical investigations for a...
AbstractAirborne electromagnetic (AEM) survey data was used to supplement geotechnical investigation...
Cost overruns caused by unforeseen geological challenges are commonplace for large infrastructure pr...
From the first use of airborne electromagnetic (AEM) systems for remote sensing in the 1950s, AEM da...
Airborne electromagnetic (EM) results have been applied to estimating depth-to-bedrock and to mappin...
Airborne electromagnetic (AEM) surveys, when regionally extensive, may sample a wide-range of geolog...
The focus of this thesis lies on the joint application of ground-based and airborne electromagnetic ...
Numerous airborne electromagnetic surveys have been acquired in Australia using a variety of systems...
AbstractAirborne electromagnetic (AEM) surveys, when regionally extensive, may sample a wide-range o...
In glaciated terrain, buried valleys often host aquifers that are significant groundwater resources....
Airborne electromagnetic (AEM) data is commonly collected for detecting buried natural resources, an...
Airborne time-domain electromagnetic methods (AEM) are useful for hydrogeological mapping due to th...
Large areas of bedrock in Canada, such as in the interior plateau of British Columbia, are covered b...
Geomagnetic and geoelectric surveys were executed in a complex zone with the aim of determining the ...
Long range, high-power airborne electromagnetic (AEM) systems fall into two categories: helicopter b...